Analysis of an Asymptotic Preserving Scheme for Relaxation Systems

Abstract

We study the convergence of a class of asymptotic preserving numerical schemes initially proposed by F. Filbet & S. Jin filb1 and G. Dimarco & L. Pareschi DimarcoP in the context of nonlinear and stiff kinetic equations. Here, our analysis is devoted to the approximation of a system of transport equations with a nonlinear source term, for which the asymptotic limit is given by a conservation laws. We investigate the convergence of the approximate solution (h,h) to a nonlinear relaxation system, where >0 is a physical parameter and h represents the discretization parameter. Uniform convergence with respect to and h is proven and error estimates are also obtained. Finally, several numerical tests are performed to illustrate the accuracy and efficiency of such a scheme.